JP6669803B2 - Front structure of electric vehicle - Google Patents

Description

  The present invention provides a battery pack mounted below a vehicle body floor, a bracket having a rear part fixed to the battery pack and a front part fixed to the vehicle body floor, and is disposed in front and rear of the vehicle body floor. The present invention relates to a vehicle body front structure of an electric vehicle including a vehicle body frame.

  A battery frame on which a battery is mounted is mounted on a lower surface of a body frame, and a guide surface formed on a rear upper surface of a subframe disposed in front of the battery frame is opposed to a slant portion formed on a front lower surface of the battery frame. Japanese Patent Application Laid-Open Publication No. H11-64131 discloses a technique in which a sub-frame is dropped downward by bringing a guide surface into contact with a slant portion at the time of a frontal collision, thereby avoiding a reduction in a crash stroke of the sub-frame due to interference with a battery frame. .

JP-A-7-117725

  By the way, in the above-mentioned conventional one, since the slant portion is directly provided in the front part of the battery frame, it is necessary to redesign the battery frame which is a large member in order to finely adjust the angle and the position of the slant portion, There is a problem that the cost increases.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to secure a crash stroke of a vehicle body frame in a frontal collision with a simple structure in an electric vehicle having a battery pack mounted below a vehicle body floor.

To achieve the above object, according to the invention described in claim 1, a battery pack mounted below the vehicle body floor, a rear part is fixed to the battery pack, and a front part is fixed to the vehicle body floor. A vehicle body front structure of an electric vehicle, comprising: a bracket, and a body frame disposed in a front-rear direction in front of the body floor, wherein a rear end of the body frame inclines from upper front to lower rear, and bracket is inclined rearwardly downward from the upper front, at least in part Ri Do heavy in the rear end portion of the body frame, the bracket than the vehicle width direction dimension of the rear end portion of the body frame of the bracket in the longitudinal direction viewed The vehicle body front structure of the electric vehicle is characterized in that the dimension in the vehicle width direction is larger .

  According to the second aspect of the invention, in addition to the configuration of the first aspect, the center of the rear end portion of the vehicle body frame in the vehicle width direction is located outside the center of the bracket in the vehicle width direction. A vehicle body front structure of an electric vehicle characterized by being offset is proposed.

According to the third aspect of the invention, in addition to the configuration of the first or second aspect , the vehicle body frame and the bracket are provided in plurality, and the high-voltage terminals of the battery pack are adjacent to each other in the vehicle width direction. A vehicle body front structure for an electric vehicle, which is located between two brackets, is proposed.

According to the invention described in claim 4 , in addition to the configuration according to any one of claims 1 to 3 , a front portion of the bracket is fixed to the vehicle body floor with a bolt, and a head of the bolt is provided. part as is located behind the imaginary inclined line of the bracket, after the front portion of the bracket is bent upward direction, the vehicle body of the electric vehicle, characterized in that the bent front to the rear of the virtual inclined line before A part structure is proposed.

  Note that the vertical frame 18 of the embodiment corresponds to the vehicle body frame of the present invention.

According to the configuration of the first aspect, the front portion of the vehicle body of the electric vehicle includes a battery pack mounted below the vehicle body floor, a bracket having a rear portion fixed to the battery pack and a front portion fixed to the vehicle body floor, A vehicle body frame arranged in the front-rear direction in front of the floor. The rear end of the body frame is inclined from the upper front to the lower rear, the bracket is inclined from the upper front to the rear lower, and at least part of the bracket overlaps the rear end of the body frame when viewed in the front-rear direction. The rear end of the reversing body frame abuts the bracket, and the body frame slides down from the upper front to the lower rear along the bracket, reducing the crash stroke of the body frame due to interference with the battery pack at the end of the collision Can be prevented. Also, without changing the design of the battery pack itself, it is possible to adjust the contact relationship with the rear end of the body frame by simply changing the angle and position of the bracket using the bracket that fixes the battery pack to the vehicle floor. Very low cost. Also, since the vehicle width direction dimension of the bracket is larger than the vehicle width direction dimension of the rear end portion of the vehicle body frame, when the vehicle body frame retreats obliquely inward in the vehicle width direction during an oblique frontal collision from the vehicle width direction outside. Even in this case, the rear end of the vehicle body frame can be reliably brought into contact with the bracket.

  According to the second aspect of the present invention, the center of the rear end portion of the vehicle body frame in the vehicle width direction is offset to the outside in the vehicle width direction with respect to the center of the bracket in the vehicle width direction. Even when the body frame retreats obliquely inward in the vehicle width direction at the time of the collision, the rear end of the body frame can be reliably brought into contact with the bracket.

According to the third aspect of the present invention, there are a plurality of vehicle body frames and a plurality of brackets, and the high voltage terminal of the battery pack is located between two brackets adjacent in the vehicle width direction. It can be protected by two brackets located on both sides in the direction.

According to the fourth aspect, the front portion of the bracket is secured to the vehicle body floor by a bolt, as the bolt head is positioned further to the rear than the imaginary inclined line of the bracket, the front bracket in the upper side After bending, it bends forward to the rear of the virtual inclined line, so that the rear end of the body frame that retreats due to a frontal collision does not interfere with the bolt that fixes the front part of the bracket, and the body frame smoothly retreats and the bracket It can be reliably dropped.

It is a longitudinal section of the front part of the body of an electric vehicle. (First Embodiment) FIG. 2 is a view in the direction of arrows in FIG. 1. (First Embodiment) It is an operation explanatory view at the time of a frontal collision. (First Embodiment) FIG. 3 is a diagram corresponding to FIG. 2. (Second embodiment)

First embodiment

  Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.

  As shown in FIGS. 1 and 2, the front portion of the vehicle body of the electric vehicle includes a dash panel lower 12 that rises upward from the front end of the vehicle body floor 11. A rectangular frame-shaped front bulkhead 14 is connected to the front ends of a pair of left and right front side frames 13 extending forward. A front cross member 15 extending in the vehicle width direction is provided on the front lower surface of the vehicle body floor 11, and a pair of left and right support members 16, 16 extending downward are provided in front of the left and right front side frames 13, 13. On the lower surface of the front cross member 15 and the lower ends of the left and right support members 16, 16, a front subframe 17 supporting a steering device, a front wheel suspension device, an air conditioning compressor, and the like is suspended.

  The front sub-frame 17 includes a pair of left and right vertical frames 18, 18 extending in the front-rear direction, a cross member 19 that connects the left and right vertical frames 18, 18 in the front-rear direction in the vehicle width direction, and a rear part of the cross member 19. An X-shaped reinforcing member 20 for connecting the left and right vertical frames 18 is provided. The rear portions of the left and right vertical frames 18, 18 of the front sub-frame 17 are screwed into two nuts 22, 22 provided inside the front cross member 15 with two bolts 21, 21 penetrating therefrom upward. The other ends of the pair of left and right stays 23, 23 whose one ends are fastened together with the bolts 21, 21 are connected to the rear ends of the left and right front side frames 13, 13 by two bolts 24, 24. Is concluded.

  On the lower surface of the vehicle body floor 11, a battery pack 27 that includes a case 25 and a cover 26 and stores a battery for traveling is mounted. A pair of left and right battery pack supports 28, 28, which are reinforcements of the vehicle body floor 11, project downward so as to be in contact with the rear surface of the front cross member 15. The case 25 is suspended and supported via a pair of left and right brackets 29,29. Each bracket 29 includes an upper mounting portion 29a, a lower mounting portion 29b, and a guide portion 29c that connects the upper mounting portion 29a and the lower mounting portion 29b.

  The upper mounting portion 29a of each bracket 29 is bent in an L-shape, and is fastened to the bottom wall 28a of the battery pack supporting portion 28 by a bolt 30 that penetrates the upper part from below to above. The lower mounting portion 29 b of the bracket 29 extends rearward from the lower end of the guide portion 29 c and is welded to the bottom wall 25 a of the case 25 of the battery pack 27. The guide portion 29c of the bracket 29 is inclined forward and upward from the lower attachment portion 29b toward the upper attachment portion 29a, and the upper attachment portion 29a and the bolt 30 are inclined with respect to a virtual inclined line L extending forward and backward. The head 30a and the lower mounting portion 29b are located rearward. In addition, a guide wall 28b that extends upward from the bottom wall 28a of the battery pack supporting portion 28 is also located on the virtual inclined line L.

  On the other hand, each vertical frame 18 of the front sub-frame 17 is a hollow closed cross-section member in which an upper member 18a and a lower member 18b are connected by an outer peripheral flange, and includes a guide wall 28b of a battery pack support portion 28 and a guide portion 29c of a bracket 29. At the rear end of the upper member 18a facing forward, a guide wall 18c parallel to the virtual inclined line L is formed. From the high voltage terminal 31 provided on the front wall 25b of the case 25 of the battery pack 27, a high voltage cable 32 is drawn toward a junction board (not shown) disposed above the front side frames 13, 13.

  As is apparent from FIG. 2, the vehicle width direction dimension W1 of the bracket 29 is smaller than the vehicle width direction dimension W2 of the rear end portion of the vertical frame 18, but the vertical frame 18 is located at the vehicle width direction center C1 of the bracket 29. The center C2 of the rear end of the vehicle in the vehicle width direction is offset outward in the vehicle width direction.

  Next, the operation of the embodiment of the present invention having the above configuration will be described.

  When the front sub-frame 17 moves rearward with respect to the front side frames 13, 13 due to a frontal collision of the vehicle, the guide walls 18c, 18c at the rear ends of the left and right vertical frames 18, 18 of the front sub-frame 17 The guide portions abut on the guide walls b of the support portions and the guide portions c of the brackets. The guide walls 18c, 18c of the front sub-frame 17 are inclined from the upper front to the lower rear along the virtual inclined line L, and the guide walls 28b, 28b of the battery pack support portions 28, 28 and the guide portions 29c of the brackets 29, 29 are provided. , 29c also incline from the upper front to the lower rear along the virtual inclined line L, so that the rear end of the front sub-frame 17 slides downward along the virtual inclined line L as shown in FIG. The parts 28, 28 break and the bolts 21, 21 fall out.

  As a result, the front sub-frame 17 is retracted while being crushed in the front-rear direction, and the rear end of the front sub-frame 17 falls downward without interfering with the front end of the battery pack 27 at the end of the collision. In addition to preventing the battery pack 27 from being damaged due to the collision with the front 17, the retraction of the front subframe 17 ensures a crash stroke at the front of the vehicle body, thereby enhancing the effect of absorbing the collision energy. As described above, without changing the design of the shape of the battery pack 27 itself, it is possible to use the brackets 29, 29 for fixing the battery pack 27 to the vehicle body, and change the front angle only by changing the inclination angles and positions of the brackets 29, 29. The contact relationship between the vertical frames 18, 18 of the sub-frame 17 and the guide walls 18c, 18c can be adjusted, so that the cost is extremely low.

  Moreover, since the center C2 of the rear ends of the vertical frames 18, 18 in the vehicle width direction is offset to the outside in the vehicle width direction with respect to the center C1 of the brackets 29, 29 in the vehicle width direction, it is oblique from the direction of arrow A in FIG. Even when the rear ends of the vertical frames 18, 18 of the front sub-frame 17 recede obliquely inward in the vehicle width direction at the time of collision, the rear ends of the vertical frames 18, 18 are securely attached to the brackets 29, 29. It can be dropped by contact.

The front portions of the brackets 29, 29 are fixed to the battery pack supporting portions 28, 28 with bolts 30, 30, so that the head portions 30a, 30a of the bolts 30, 30 are located behind the virtual inclined line L. after upper mounting portion 29a of the bracket 29, the 29a is bent upward direction, since the bent forward until the rear of the virtual inclined line L, the rear end of the front subframe 17 to retract the frontal collision bolt 30 , 30 does not interfere with the heads 30a, 30a, and the front sub-frame 17 can be smoothly retracted so as to be reliably dropped by the brackets 29, 29.

  Further, since the high voltage terminal 31 of the battery pack 27 is located between the two brackets 29 adjacent to each other in the vehicle width direction, the high voltage terminal 31 of the battery pack 27 is connected to the two brackets 29 in response to an impact from outside in the vehicle width direction. , 29.

Second embodiment

  Next, a second embodiment of the present invention will be described with reference to FIG.

In the first embodiment, the vehicle width direction dimension W2 of the rear ends of the vertical frames 18, 18 of the front subframe 17 is set to be larger than the vehicle width direction dimension W1 of the brackets 29, 29. In the embodiment, the dimension W1 of the brackets 29, 29 in the vehicle width direction is set to be larger than the dimension W2 of the rear ends of the vertical frames 18, 18 of the front subframe 17 in the vehicle width direction. This allows the front subframe 17 by the front collision even addressed when retracted in various directions, which more reliably contact the vertical frame 18, 18 a rear end to a bracket 29 of the front sub-frame 17 .

  As described above, the embodiments of the present invention have been described. However, various design changes can be made in the present invention without departing from the gist thereof.

For example, the rear end of the guide wall 18c of the vertical frame 18, 18 of the front subframe 17 in the embodiment, 18c is the guide wall 28b of the battery pack supporting portions 28, and 28b, the bracket 29,2 9 of the guide portion The guide walls 28b, 28b of the battery pack support portions 28, 28 are not necessarily required, and can be omitted.

  In the embodiment, the guide walls 18c, 18c are provided at the rear ends of the vertical frames 18, 18 of the front sub-frame 17, however, the guide walls 18c, 18c are not necessarily required, and the rear ends of the vertical frames 18, 18 are provided. Any part can be used as long as it can contact the guide parts 29c, 29c of the brackets 29, 29.

  Further, the body frame of the present invention is not limited to the vertical frames 18 of the front subframe 17 of the embodiment.

11 Body floor 18 Vertical frame (body frame)
27 Battery pack 29 Bracket 30 Bolt 30a Head 31 High voltage terminal C1 Center of vehicle width direction of bracket C2 Middle width direction of rear end of vehicle body frame W1 Dimension of vehicle width direction of bracket W2 Vehicle width direction of rear end of vehicle body frame Dimension L Bracket virtual slope line

Claims (4)

A battery pack (27) mounted below the vehicle body floor (11), a bracket (29) having a rear part fixed to the battery pack (27) and a front part fixed to the vehicle body floor (11); A vehicle body front structure of an electric vehicle including: a vehicle body frame (18) disposed in a front-rear direction in front of a vehicle body floor (11);
The rear end of the vehicle body frame (18) is inclined from the upper front to the lower rear, the bracket (29) is inclined from the upper front to the rear lower, and at least a part of the bracket (29) is Ri Do heavy in the rear end portion of the body frame (18), the direction of vehicle width dimension (W1) of said body frame (18) rear end the bracket than the vehicle width direction dimension (W2) of (29) A body front structure of an electric vehicle characterized by being large . Characterized in that the body frame (18) of the rear end of the vehicle width direction in the heart (C2) is offset in the vehicle width direction outer side with respect to the vehicle width direction center (C1) of said bracket (29) The vehicle body front structure of an electric vehicle according to claim 1. There is a plurality of the body frame (18) and the bracket (29), and the high voltage terminal (31) of the battery pack (27) is located between two adjacent brackets (29) in the vehicle width direction. The vehicle body front structure of an electric vehicle according to claim 1 or 2 , characterized in that: A front portion of the bracket (29) is fixed to the vehicle body floor (11) with a bolt (30), and a head (30a) of the bolt (30) is higher than a virtual inclined line (L) of the bracket (29). so as to be positioned behind the front of the bracket (29), after bending the upper side, characterized in that bending forward to the rear of the virtual inclined line (L), according to claim 1 to claim 3 A vehicle body front structure according to any one of the preceding claims.

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